#include "affunctions.h" #include #include #include #include #include #include #include #define EQUIVSET_LOC "equivset.txt" map af_functions; map functionResultCache; AFPData af_length( vector args ); AFPData af_lcase( vector args ); AFPData af_ccnorm( vector args ); AFPData af_rmdoubles( vector args ); AFPData af_specialratio( vector args ); AFPData af_rmspecials( vector args ); AFPData af_norm( vector args ); AFPData af_count( vector args ); void af_registerfunction( string name, AFPFunction method ) { af_functions[name] = method; } void registerBuiltinFunctions() { af_registerfunction( "length", (AFPFunction) &af_length); af_registerfunction( "lcase", (AFPFunction) &af_lcase ); af_registerfunction( "ccnorm", (AFPFunction) &af_ccnorm ); af_registerfunction( "rmdoubles", (AFPFunction) &af_rmdoubles ); af_registerfunction( "specialratio", (AFPFunction) &af_specialratio ); af_registerfunction( "rmspecials", (AFPFunction) &af_rmspecials ); af_registerfunction( "norm", (AFPFunction) &af_norm ); af_registerfunction( "count", (AFPFunction) &af_count ); } AFPData af_count( vector args ) { if (!args.size()) { throw AFPException( "Not enough arguments to count" ); } string needle,haystack; if (args.size() < 2) { needle = ","; haystack = args[0].toString(); } else { needle = args[0].toString(); haystack = args[1].toString(); } size_t last_pos = 0; unsigned int count = 0; while (last_pos != haystack.npos) { count++; last_pos = haystack.find( needle, last_pos ); } // One extra was added, but one extra is needed if only one arg was supplied. if (args.size() >= 2) { count--; } return AFPData((long int)count); } AFPData af_norm( vector args ) { if (!args.size()) { throw AFPException( "Not enough arguments to norm" ); } string orig = args[0].toString(); string::const_iterator p, charStart, end; int chr = 0,lastchr = 0; map equivSet = getEquivSet(); string result; p = orig.begin(); end = orig.end(); while (chr = next_utf8_char( p, charStart, end )) { if (equivSet.find(chr) != equivSet.end()) { chr = equivSet[chr]; } if (chr != lastchr && isalnum(chr)) { result.append(codepointToUtf8(chr)); } lastchr = chr; } return AFPData(result); } string rmdoubles( string orig ) { string::const_iterator p, charStart, end; int chr,lastchr = 0; string result; p = orig.begin(); end = orig.end(); while (chr = next_utf8_char( p, charStart, end )) { if (chr != lastchr) { result.append(codepointToUtf8(chr)); } lastchr = chr; } return result; } vector makeFuncArgList( AFPData arg ) { vector ret; ret.push_back( arg ); return ret; } AFPData callFunction( string name, vector args ) { string cacheKey; bool doCache = false; if (args.size() == 1) { doCache = true; cacheKey = name + args[0].toString(); if (functionResultCache.find(cacheKey) != functionResultCache.end()) { // found a result return functionResultCache[cacheKey]; } } if (functionResultCache.size() > 100) { functionResultCache.clear(); } AFPData result; if ( af_functions.find( name ) != af_functions.end() ) { // Found the function AFPFunction func = af_functions[name]; result = func(args); if (doCache) { functionResultCache[cacheKey] = result; } return result; } } AFPData callFunction( string name, AFPData arg ) { vector arglist = makeFuncArgList( arg ); return callFunction( name, arglist ); } AFPData af_specialratio( vector args ) { if (!args.size()) { throw AFPException( "Not enough arguments to specialratio" ); } string orig = args[0].toString(); string::const_iterator p, charStart, end; int chr,lastchr = 0; int specialcount = 0; p = orig.begin(); end = orig.end(); while (chr = next_utf8_char( p, charStart, end )) { if (!isalnum(chr)) { specialcount++; } } double ratio = (float)(specialcount) / (float)(((Glib::ustring)orig).size()); return AFPData(ratio); } AFPData af_rmspecials( vector args ) { if (!args.size()) { throw AFPException( "Not enough arguments to rmspecials" ); } string orig = args[0].toString(); string result = rmspecials(orig); return AFPData(result); } string rmspecials( string orig ) { string::const_iterator p, charStart, end; int chr = 0; string result; p = orig.begin(); end = orig.end(); while (chr = next_utf8_char( p, charStart, end )) { if (isalnum(chr)) { result.append(codepointToUtf8(chr)); } } return result; } AFPData af_ccnorm( vector args ) { if (!args.size()) { throw AFPException( "Not enough arguments to ccnorm" ); } return AFPData( confusable_character_normalise( args[0].toString() ) ); } AFPData af_rmdoubles( vector args ) { if (!args.size()) { throw AFPException( "Not enough arguments to rmdoubles" ); } string result = rmdoubles( args[0].toString() ); return AFPData(result); } AFPData af_length( vector args ) { if (!args.size()) { throw AFPException( "Not enough arguments to lcase" ); } return AFPData( (long int)((Glib::ustring)args[0].toString()).size() ); } AFPData af_lcase( vector args ) { if (!args.size()) { throw AFPException( "Not enough arguments to lcase" ); } Glib::ustring s = args[0].toString(); string s2 = s.lowercase(); return AFPData(s); } string confusable_character_normalise( string orig ) { string::const_iterator p, charStart, end; int chr; map equivSet = getEquivSet(); string result; p = orig.begin(); end = orig.end(); while (chr = next_utf8_char( p, charStart, end )) { if (equivSet.find(chr) != equivSet.end()) { chr = equivSet[chr]; } result.append(codepointToUtf8(chr)); } return result; } bool isFunction( string name ) { return af_functions.find(name) != af_functions.end(); } map getEquivSet() { static map equivSet; // Map of codepoint:codepoint if (equivSet.empty()) { ifstream eqsFile( EQUIVSET_LOC ); if (!eqsFile) { throw AFPException( "Unable to open equivalence sets!" ); } string line; while (!! getline(eqsFile,line)) { size_t pos = line.find_first_of( ":", 0 ); if (pos != line.npos) { // We have a codepoint:codepoint thing. int actual = 0; int canonical = 0; istringstream actual_buffer(line.substr(0,pos)); istringstream canon_buffer( line.substr(pos+1)); actual_buffer >> actual; canon_buffer >> canonical; if (actual != 0 && canonical != 0) { equivSet[actual] = canonical; } } } eqsFile.close(); } return equivSet; } // Weak UTF-8 decoder // Will return garbage on invalid input (overshort sequences, overlong sequences, etc.) // Stolen from wikidiff2 extension by Tim Starling (no point in reinventing the wheel) int next_utf8_char(std::string::const_iterator & p, std::string::const_iterator & charStart, std::string::const_iterator end) { int c; unsigned char byte; int bytes = 0; charStart = p; if (p == end) { return 0; } do { byte = (unsigned char)*p; if (byte < 0x80) { c = byte; bytes = 0; } else if (byte >= 0xc0) { // Start of UTF-8 character // If this is unexpected, due to an overshort sequence, we ignore the invalid // sequence and resynchronise here if (byte < 0xe0) { bytes = 1; c = byte & 0x1f; } else if (byte < 0xf0) { bytes = 2; c = byte & 0x0f; } else { bytes = 3; c = byte & 7; } } else if (bytes) { c <<= 6; c |= byte & 0x3f; --bytes; } else { // Unexpected continuation, ignore } ++p; } while (bytes && p != end); return c; } // Ported from MediaWiki core function in PHP. string codepointToUtf8( int codepoint ) { string ret; if(codepoint < 0x80) { ret.append(1, codepoint); return ret; } if(codepoint < 0x800) { ret.append(1, codepoint >> 6 & 0x3f | 0xc0); ret.append(1, codepoint & 0x3f | 0x80); return ret; } if(codepoint < 0x10000) { ret.append(1, codepoint >> 12 & 0x0f | 0xe0); ret.append(1, codepoint >> 6 & 0x3f | 0x80); ret.append(1, codepoint & 0x3f | 0x80); return ret; } if(codepoint < 0x110000) { ret.append(1, codepoint >> 18 & 0x07 | 0xf0); ret.append(1, codepoint >> 12 & 0x3f | 0x80); ret.append(1, codepoint >> 6 & 0x3f | 0x80); ret.append(1, codepoint & 0x3f | 0x80); return ret; } throw AFPException("Asked for code outside of range ($codepoint)\n"); }